Solenoid plunger system with an impact damping mechanism

ABSTRACT

The invention is directed to a solenoid plunger system for an electro-pneumatic pressure transducer comprising [elements] at least partially [arranged] in a cladding, particularly an iron cladding, [to wit] a solenoid plunger, a core such as an iron core or a magnetic core, at least a first recess in the solenoid plunger and/or a second recess in the core and an air gap between the cladding and the solenoid plunger and/or the core that is adjustable by means of a relative motion between the solenoid plunger and the core while the solenoid plunger is at least partially movable into or, respectively, out of the second recess in the core and/or the core is at least partially movable into or, respectively, out of the first recess in the solenoid plunger, as well as a first damping element in the first recess and/or a second damping element in the second recess.

[0001] The invention is directed to a solenoid plunger system for an electro-pneumatic pressure transducer comprising [elements] at least partially [arranged] in a cladding, particularly an iron cladding, [to wit] a solenoid plunger, a core such as an iron core or a magnetic core, at least a first recess in the solenoid plunger and/or a second recess in the core and an air gap between the cladding and the solenoid plunger and/or the core that is adjustable by means of a relative motion between the solenoid plunger and the core while the solenoid plunger is at least partially movable into or, respectively, out of the second recess in the core and/or the core is at least partially movable into or, respectively, out of the first recess in the solenoid plunger.

[0002] Such a solenoid plunger system is disclosed, for example, by DE 41 10 003 C1. The known electro-pneumatic transducer, which is particularly employable in a pneumatic control of a motor vehicle, thereby comprises a valve device that is actuated by a diaphragm and the solenoid plunger system and generates a mixed pressure of air at low pressure and atmospheric pressure in a valve chamber by controlling the corresponding connections, said mixed pressure being supplied to a user via a connection. The solenoid plunger system is characterized by the possibility of setting the air gap between the iron cladding and the solenoid plunger, i.e. in the magnetic circuit. The air in the air gap also performs damping functions but only as long as the air gap is more or less sealed, i.e. exhibits no leakage. Leakage has hitherto been avoided in that an oil seal is provided between the solenoid plunger and its bearings, and the solenoid plunger system is cast in resin, at least at its end facing away from the solenoid plunger. Not only are an oil seal and a resin embedding work intensive as well as cost intensive; they are also not adequately dependable for avoiding leakage, so that impact between the solenoid plunger and core and, thus, damage thereto as well as high noise emissions can occur during operation of the electro-pneumatic pressure transducer. Further, air disadvantageously exhibits a great temperature dependency that likewise have [sic] a negative influence on the damping properties thereof in the air gap.

[0003] It is therefore an object of the present invention to develop the solenoid plunger system of the species such that the disadvantages of the Prior Art are overcome, particularly that, a metallic impact between solenoid plunger and core is reliably avoided for preventing mechanical damage to the solenoid plunger and/or core as well as for reducing a noise emission over a broad range of employment, particularly under oscillatory stressing or, respectively, given a saltus function.

[0004] This object is inventively achieved by a first damping element in the first recess and/or a second damping element in the second recess.

[0005] It is thereby preferred that the first and/or second damping element is or, respectively, are formed of an elastomer.

[0006] Advantageous embodiments of the invention can be characterized in that the core is fashioned bipartite, the second recess is fashioned in the first core part, and the second core part extends through the second recess and can be moved into the first recess or, respectively, out therefrom. It can thereby be provided that the first core part is essentially annularly concentric around te second core part, and the second damping element is essentially annular.

[0007] The invention also proposes that the second core part is essentially cylindrical, and the first damping element is essentially stopper-like.

[0008] It can also be inventively provided that the core, particularly the first core part, is movable relative to the solenoid plunger via a threaded sleeve for setting the air gap.

[0009] It is also inventively proposed that the second core part is adjustably arranged in the first core part, whereby the second core part can preferably be acted upon at its end facing away from the solenoid plunger for setting the air gap.

[0010] It is also inventively proposed that the first and/or second core part comprises or, respectively, comprise a cone section that tapers in the direction of the solenoid plunger.

[0011] A plain bearing bush can also be inventively provided for the solenoid plunger.

[0012] Finally, a spacer can also be inventively provided between the cladding and the threaded sleeve.

[0013] The invention is thus based on the surprising perception that the wear of a solenoid plunger system can be reduced in a cost-beneficial way and that the range of employment thereof can be broadened in that the air gap of the magnetic circuit in an electro-pneumatic pressure transducer serves essentially only the function of setting the electro-pneumatic transducer, whereas damping properties are assumed by at least one additional damping element that is provided between the solenoid plunger and the core, namely in a recess in the core and/or in a recess in the solenoid plunger. The damping element thereby dependably prevents a metallic impact of solenoid plunger and core without requiring the presence of an involved seal; the damping element also damps noise for the reduction of the noise emissions of the electro-pneumatic transducer; and the damping element is preferably fashioned of an elastomer that exhibits a low temperature dependency and thus increases the range of employment of the electro-pneumatic transducer.

[0014] Further features and advantages of the invention derive from the following description wherein an exemplary embodiment of the invention is explained in detail on the basis of a schematic drawing. The drawing comprising a single FIGURE thereby shows a partial section of an electro-pneumatic pressure transducer with a solenoid plunger system of the invention.

[0015] As can be derived from the FIGURE, an inventive solenoid plunger system 1 comprises a solenoid plunger 10 within a coil 2, said solenoid plunger 10 having a first recess 12 at its end facing away from a diaphragm (not shown) of the electro-pneumatic pressure transducer. The first recess 12 is thereby essentially cylindrical with a conically tapering end. The solenoid plunger 10 proceeds at least partly in an iron cladding 14 that likewise surrounds the coil 2 and at least a part of the iron core. The iron core in turn comprises two components, whereby a first iron core part 16 having a second recess 18 is fashioned, the second iron core part 20 proceeding therein. The solenoid plunger 10 is also guided in a plain bearing bush 22 in the iron cladding 14, whereas the first iron core part 16 is seated in a threaded sleeve 24 that is in turn saved from impacting against the iron cladding 14 by a spacer 26. A damping stopper 28 is arranged in the first recess 12 in the solenoid plunger 10, particularly in the form of an elastomer that partly fills the first recess 12, and a damping ring 30 is arranged in the second recess 18 in the first iron core [. . .] 16, particularly in the form of an elastomer that partly fills the second recess 18. An air gap 32, finally, is formed between the solenoid plunger 10, the spacer 26 and the iron core 16, 18 [sic]. The size of the air gap 32 is thereby [. . .] for adjusting the electro-pneumatic pressure transducer by movement of the first iron core part 16 relative to the solenoid plunger 10, namely by turning at the threaded sleeve 24, and/or movement of the second iron core part 20 relative to the solenoid plunger 10, namely by the turning thereof in the second in the second iron core part 20.

[0016] During operation of an electro-pneumatic pressure transducer having the inventive solenoid plunger system 1, the damping ring 28 and the damping stopper 30 prevent a metallic impact of the first iron core 16 or, respectively, of the second iron core 20 against the solenoid plunger, which, first, extends the average service life of the solenoid plunger system 1 due to the reduction of damage and, second, reduces the noise emission, namely advantageously over a broad temperature range due to the low temperature dependency of the elastomer employed for the damping ring 28 as well as for the damping stopper 30.

[0017] Both individually as well as in any arbitrary combination, the features of the invention disclosed in the above description, in the claims as well as in the drawing can be critical for realizing the various embodiments of the invention.

LIST OF REFERENCE CHARACTERS

[0018]1 solenoid plunger system

[0019]2 coil

[0020]10 solenoid plunger

[0021]12 recess

[0022]14 iron cladding

[0023]16 iron core part

[0024]18 recess

[0025]20 iron core part

[0026]22 plain bearing bush

[0027]24 threaded sleeve

[0028]26 spacer

[0029]28 damping stopper

[0030]30 damping ring

[0031]32 air gap 

1. Solenoid plunger system (1) for an electro-pneumatic pressure transducer comprising [elements] at least partially [arranged] in a cladding (14), particularly an iron cladding, [to wit] a solenoid plunger (10), a core (16, 20) such as an iron core or a magnetic core, at least a first recess (12) in the solenoid plunger (10) and/or a second recess (18) in the core (16) and an air gap (32) between the cladding (14) and the solenoid plunger (10) and/or the core (16, 20) that is adjustable by means of a relative motion between the solenoid plunger (10) and the core (16, 20) while the solenoid plunger (10) is at least partially movable into or, respectively, out of the second recess (18) in the core (16) and/or the core (20) is at least partially movable into or, respectively, out of the first recess (12) in the solenoid plunger (10), whereby the core (16, 20) is movable relative to the solenoid plunger (10) for setting the air gap (32), characterized by a threaded sleeve (24) via which the core (16, 20) is movable relative to the solenoid plunger (10), a spacer (26) between the cladding (14) and the threaded sleeve (24), and a first damping element (28) in the first recess (12) and/or a second damping element (30) in the second recess (18).
 2. Solenoid plunger system according to claim 1, characterized in that the first and/or second damping element (28, 30) is or, respectively, are formed of an elastomer.
 3. Solenoid plunger system according to claim 1 or 2, characterized in that the core is fashioned bipartite, the second recess (18) is fashioned in the first core part (16), and the second core part (20) extends through the second recess (18) and can be moved into the first recess (12) or, respectively, out therefrom, whereby the first core part (16, 20) is preferably movable relative to the solenoid plunger (10) via the threaded sleeve (24) for setting the air gap (32).
 4. Solenoid plunger system according to claim 3, characterized in that the first core part (16) is essentially annularly concentric around the second core part (20), and the second damping element (30) is essentially annular.
 5. Solenoid plunger system according to claim 3 or 4, characterized in that the second core part (20) is essentially cylindrical, and the first damping element (28) is essentially stopper-like.
 6. Solenoid plunger system according to one of the claims 3 through 5, characterized in that the second core part (20) is adjustably arranged in the first core part (16), whereby the second core part (20) can preferably be acted upon at its end facing away from the solenoid plunger (10) for setting the air gap (32).
 7. Solenoid plunger system according to one of the claims 3 through 6, characterized in that the first and/or second core part (16) comprises or, respectively, comprise a cone section that tapers in the direction of the solenoid plunger (10).
 8. Solenoid plunger system according to one of the preceding claims, characterized by a plain bearing bush (22) for the solenoid plunger (10). 